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SA Journal of Radiology

versión On-line ISSN 2078-6778
versión impresa ISSN 1027-202X

S. Afr. J. radiol. (Online) vol.26 no.1 Johannesburg  2022

http://dx.doi.org/10.4102/sajr.v26i1.2286 

CASE REPORT

 

Spinal Chloroma - Herald of blast crisis in a patient with chronic myeloid leukaemia: A case report

 

 

Stuti Chandola; M. Sarthak Swarup; Radhika Batra; Alpana Manchanda

Department of Radiodiagnosis, Maulana Azad Medical College, New Delhi, India

Correspondence

 

 


ABSTRACT

Myeloid sarcoma or chloroma is a localised tumour characterised by extramedullary proliferation of precursor myeloid cells. Commonly occurring in association with acute myeloid leukaemia, chloroma can occasionally be seen in myeloproliferative disorders with subsequent blastic transformation. Imaging plays an important role in the diagnosis and evaluation of this entity. A case of chloroma involving the dorso-lumbar vertebral region is presented in a patient with chronic myeloid leukaemia with subsequent blastic transformation.

Keywords: myeloid sarcoma; chronic myeloid leukaemia; blast crises; acute myeloid leukaemia, chloroma.


 

 

Introduction

Myeloid sarcoma, also known as granulocytic sarcoma or chloroma, refers to a solid tumour representing extramedullary proliferation of precursor myeloid cells.1 It affects children more commonly than adults and is equally seen in both sexes. Chloroma most commonly occurs in association with acute myeloid leukaemia (AML); however, it can also be seen in myeloproliferative disorders like polycythaemia vera and chronic myeloid leukaemia (CML) and in myelodysplastic syndromes.2 Although the lesion largely occurs in the active phase of AML, it can also arise when the disease is in remission. The appearance of chloroma may indicate relapse or herald a blast crisis, especially in myeloproliferative disorders.

Bones, including the spine, are typically involved because of direct extension from the affected marrow.3 The most common bones to be affected include the appendicular bones and spine with near equal incidence being reported in both.1,3 Occasionally, there can be further extension of the lesion into the spinal canal and along the nerve roots with subsequent compressive myelopathy.

A case of chloroma involving the dorso-lumbar vertebral region with associated involvement of the epidural space in a patient with CML is presented. Although the epidural region is a common location for chloroma, this disease entity itself is uncommon and occurs mostly in association with AML. The presentation of chloroma in the setting of CML with ultimate blastic conversion is a relatively rare phenomenon.

 

Case presentation

A 35-year-old gentleman presented with progressive paraparesis over 15 days. He was known with chronic myeloid leukaemia (BCR-AML gene positive) and in remission for four years on imatinib therapy. Laboratory findings revealed anaemia with a haemoglobin of 8 g/dL. Other laboratory tests were normal and bone marrow aspirate did not reveal blast cells. Magnetic resonance imaging (MRI) of the spine was performed on a 3T scanner (Siemens Magnetom skyra) in view of the complaints.

The MRI examination revealed altered signal intensity involving the bodies and posterior elements of the T12 vertebra and L1 vertebra which showed hypointense signal on T1 weighted (T1W) and hyperintense signal on T2W and short tau inversion recovery (STIR) sequences (Figures 1 and 2) with mild enhancement on post contrast images. On chemical shift imaging, the involved vertebral body did not show reduction in signal on opposed phase images (Figure 3). There was a homogeneously enhancing soft tissue mass in the posterior epidural space extending from the T12 to L2 vertebral levels appearing isointense on T1W and hyperintense on T2W and STIR images (Figures 2 and 4). The lesion caused narrowing of the spinal canal with marked compression of the conus medullaris and cauda equina nerve roots. There was associated widening of bilateral neural foramina (right > left) at the T12-L1 and L1-L2 levels, with infiltration of the soft tissue lesion into bilateral paraspinal muscles. A possibility of myeloid sarcoma was suggested given the clinical profile and imaging findings.

 

 

 

 

 

 

 

 

The patient underwent decompressive surgery with a laminectomy and debulking of the epidural lesion. Microscopic examination of the tissue showed multiple myeloblasts with large oval nuclei and prominent nucleoli scattered in a background of myelocytes (Figure 4). In addition, the neoplastic cells showed strong positivity for CD34 and myeloperoxidase enzyme (Figure 5) suggestive of myeloid lineage which confirmed the diagnosis of a granulocytic sarcoma.

The patient was then started on a combination of imatinib and steroids. However, the patient progressed into a blast crisis and full-blown AML (blast cells in bone marrow > 20%) in a span of four weeks.

Despite an initial minimal improvement with steroids, no further change was seen in the paraparesis. The patient developed severe pancytopenia with hospital acquired pneumonia and succumbed to his illness two months later.

 

Discussion

First described by Burns in 1811, myeloid sarcoma or chloroma is characterised by the presence of myeloperoxidase enzyme which imparts a greenish tint to it, a feature seen in two thirds of cases. At immunohistochemical staining, it is characterised by the expression of CD68, lysozyme, CD34, and CD43 with variable expression of myeloperoxidase enzyme. Children are affected more commonly than adults and 60% of the patients are younger than 15-years of age.1

Clinically, chloroma most commonly occurs in the active phase of AML, particularly the M4 and M5 subtypes. However, it can occasionally occur in the setting of chronic myeloproliferative disorders (including chronic idiopathic myelofibrosis, essential thrombocythemia, polycythaemia vera and CML) or myelodysplastic syndrome, with the appearance of the tumour often corresponding with blastic conversion.2 In addition, chloroma may also be a manifestation of relapse in formerly treated patients of primary or secondary acute leukaemia, especially post bone marrow transplantation. In a small number of cases, it occurs in patients without any manifestations of acute leukaemia and is later heralded by the appearance of AML after an interval of weeks, months, or even years. Isolated chloromas without the evidence of leukaemia are frequently misdiagnosed because of the lack of typical CT or MR findings and need for biopsy.4

The cortical bone and periosteum are typically involved due to the direct spread from the affected marrow. Although any site may be involved, other common areas of involvement include the skin, lymph nodes, orbit, muscles, central nervous system, head and neck and retroperitoneum.3 In addition, the peritoneum and adrenals have also been documented as unusual sites.5

In the spine, the most commonly affected site includes the vertebral body. In addition, there can be spread of myeloid cells from the haversian canals into the extra-osseous region with resultant involvement of the epidural space, which is the most frequent area affected.4 It may appear similar to spinal tumours when the tumour tracks along the paraspinal nerve roots. Pre-/paravertebral chloroma may also result as an extension from retroperitoneal lymphadenopathy.

A precise and prompt diagnosis of chloroma is crucial as it allows the institution of definitive radiotherapy or adjuvant chemotherapy for local control of the disease, which helps in relieving cord compression and obviates any unnecessary surgery. Magnetic resonance imaging forms the cornerstone in the evaluation and diagnosis of spinal involvement in chloroma by aiding in spatial localisation (i.e. vertebral, epidural, intradural extramedullary and intramedullary), determining its extent and assessing the degree of cord compression, if present. At MRI, vertebral involvement in chloroma manifests as focal, multifocal or diffuse leukaemic infiltration of the vertebral marrow with low signal intensity on T1W, high signal intensity on T2W images and avid enhancement on post contrast images. Chemical shift imaging remains a useful entity when differentiating this condition from red marrow conversion. A propensity for ligamentous and subperiosteal involvement is also seen as a result of spread via the haversian canals.6 However, this non-specific appearance can be confused with marrow infiltrating disorders such as multiple myeloma and lymphoma; hence, a thorough clinical history of haematological disease is imperative in establishing the diagnosis.

Epidural involvement in chloroma can often occur in conjunction with vertebral body involvement. These often present as multiple masses which may be either contiguous or discrete, involving different vertebral levels. They usually show isointense and intermediate signal on T1W and T2W images respectively, with homogeneous post contrast enhancement.7,8 Central non-enhancing necrotic areas may be identified and diffusion restriction may be noted on diffusion weighted images. The lesions can cause effacement of the epidural fat with inward displacement of the dura mater and compression of the spinal cord with partial or complete obliteration of the cerebrospinal fluid (CSF) space. Frequent association with compressive myelopathy or neuronopathy, regardless of lesion location, is also seen. The combined intra-extraspinal form of chloroma, with a resultant 'dumb bell configuration', may simulate the appearance of a nerve sheath tumour on imaging. In such scenarios, absence of intense T2 hyperintensity without secondary bony changes (destruction or remodelling) favours chloroma.4

Intramedullary chloroma is a relatively rare entity which manifests as diffuse expansion of the cord and shows low signal intensity on T1W and high signal intensity on T2W with homogeneous post contrast enhancement. There may also be associated leptomeningeal enhancement. The appearance is non-specific and biopsy is required for final diagnosis.

Extranodal lymphoma remains an important differential diagnosis of chloroma due to similar imaging findings. It typically shows low to intermediate signal intensity on T1W images and mild hyperintense signal on T2W images with restricted diffusion on diffusion weighted sequences. Extraosseous myeloma may also mimic chloroma. This appears as a homogeneous soft-tissue mass on CT and shows low signal on T2W images. These entities may be indistinguishable from chloroma on the basis of imaging features alone and a sound knowledge of the clinical and haematological profile helps in arriving at an accurate diagnosis.

It is therefore critical for the radiologist to consider the possibility of chloroma as a differential diagnosis especially in the setting of leukaemia and other myeloproliferative disorders. The appearance of a new mass almost anywhere in the body of a leukaemic patient should raise concern for chloroma and accordingly histologic diagnosis should be sought. The diagnosis remains challenging in patients without a history of hematologic malignancy.

 

Conclusion

Although commonly seen in AML, chloroma is a disease which can occur in association with a myriad of myeloproliferative and myelodisplastic disorders and is often the first manifestation of the progression of these disorders into AML (blast crisis) as seen in the presented case. Spinal involvement in chloroma may manifest as osseous infiltration with or without spinal cord involvement and is often associated with compressive myelopathy. Although the disease is associated with a poor prognosis and is treated by systemic chemotherapy, irrespective of the site or marrow status, a localised treatment plan consisting of focused radiotherapy and surgery may be formulated for relieving compressive symptoms.

Radiologists play a key role in suggesting the possibility of this disease entity, which calls for the need to familiarise oneself with the imaging features and to have a high index of suspicion, especially in patients with a history of hematologic disease. A combined multidisciplinary approach consisting of clinical features, imaging and pathological findings, including immunohistochemistry, is imperative for correct diagnosis.

 

Acknowledgements

We would like to acknowledge the Department of Medicine, Lok Nayak Hospital for providing clinical inputs and the Department of Pathology, Govind Ballabh Pant Hospital, New Delhi for providing the histo-pathological images.

Competing interests

The authors declare that they have no financial or personal relationships that may have inappropriately influenced them in writing this article.

Authors' contributions

S.C., M.S.S., R.B., and A.M. contributed to the design and implementation of the report, to the analysis of the findings and to the writing of the manuscript.

Ethical considerations

This article followed all ethical standards research. Consent was obtained from the patient to include the data and images in the publication. Patient anonymity was maintained.

Funding information

The authors declare that they have no financial or personal relationships that may have inappropriately influenced them in writing this article.

Data availability

All data pertaining to this case are available within the article.

Disclaimer

The views and opinions expressed in this article are those of the authors and do not necessarily reflect the official policy or position of any affiliated agency of the authors.

 

References

1.Neiman RS, Barcos M, Berard C, et al. Granulocytic sarcoma: A clinicopathologic study of 61 biopsied cases. Cancer. 1981;48(6):1426-1437. https://doi.org/10.1002/1097-0142(19810915)48:6%3C1426::AID-CNCR2820480626%3E3.0.CO;2-G        [ Links ]

2.Audouin J, Comperat E, Le Tourneau A, et al. Myeloid sarcoma: Clinical and morphologic criteria useful for diagnosis. Int J Surg Pathol. 2003;11(4):271-282. https://doi.org/10.1177/106689690301100404        [ Links ]

3.Shinagare AB, Krajewski KM, Hornick JL, et al. MRI for evaluation of myeloid sarcoma in adults: A single-institution 10-year experience. Am J Roentgenol. 2012;199(6):1193-1198. https://doi.org/10.2214/AJR.12.9057        [ Links ]

4.Singh A, Kumar P, Chandrashekhara SH, Kumar A. Unravelling chloroma: Review of imaging findings. BJR Suppl. 2017;90(1075):20160710. https://doi.org/10.1259/bjr.20160710        [ Links ]

5.Pfannenberg AC, Lengerke C, Kröber SM, Horger M, Claussen CD. Chloroma of the adrenal gland and the peritoneum: CT diagnosis of an unusual presentation of acute myeloid leukemia. Eur J Radiol. 2006;58(1):23-26. https://doi.org/10.1016/j.ejrex.2006.01.009        [ Links ]

6.Fritz J, Vogel W, Bares R, Horger M. Radiologic spectrum of extramedullary relapse of myelogenous leukemia in adults. Am J Roentgenol. 2007;189(1):209-218. https://doi.org/10.2214/AJR.06.1500        [ Links ]

7.Guermazi A, Feger C, Rousselot P, et al. Granulocytic sarcoma (chloroma) imaging findings in adults and children. Am J Roentgenol. 2002;178(2):319-325. https://doi.org/10.2214/ajr.178.2.1780319        [ Links ]

8.Meyer HJ, Beimler M, Borte G, Pönisch W, Surov A. Radiological and clinical patterns of myeloid sarcoma. Radiol Oncol. 2019;53(2):213. https://doi.org/10.2478/raon-2019-0014        [ Links ]

 

 

Correspondence:
Radhika Batra
radhikabatra0804@gmail.com

Received: 30 Aug. 2021
Accepted: 10 Oct. 2021
Published: 27 Jan. 2022

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